Baking dough rolling machine



Dec. 28,'1943. J, BUEcHEK 2,337,539

BAKING DoUGH ROLLING MACHINE Filed oct. 13, 1941 2 Sheets-Sheet 1 INV ENT OR.

v Ell @www NEE# Dec. 28, J. BUECHEK BAKING DOUGH ROLLING MACHINE Filed 0pt. 13, 1941 2 Shee'tS-Sheet 2 al llllllllllllllllll IIIIII rfa-Hq E "'PILJU Patented Dec. 28, 1943 S PATENT OFFICE BAKING DOUGH ROLLING MACHINE John Bueohek, Kokomo, Ind., asslgnor oi" one- Ahalf to Uz MoMurtrie, Indianapolis, Ind.

Application October 13, 1941, Serial No. 414,760

(Cl. 10T-9) 4 Claims.

'Ihis invention relates to the process of and apparatus for forming rolled dough portions suitable for the formation of several different kinds of bakery products, such as sugar rolls, cinnamon rolls, nut rolls, et cetera, by Way of example only.

The chief object of this invention is to reduce manual labor incident to the formation of dough portions suitable for baking the aforesaid products. by handling the dough continuously supplied to mechanically operable means or apparatus which in turn rolls the advancing ribbon or sheet of dough into a roll of dough from which, if, and when desired, portions of predetermined length may be cut for roll formation et cetera.

The process primarily contemplates forming dough into a sheet of predetermined width and thickness and then coating the same with a baking oil and coating the final sealingv edge with water, as desired or required, then supplying edge in the advancing of the sheet until the sheet is completely rolled into roll form, with the various added ingredients applied and included within the roll. The advancing roll then is sealed in roll formation, as it were, in its continued advance and then may be manually or automatically severed to the desired length to form ,the roll portions for subsequent baking. Such roll lengths by way of illustration, may be from one to twelve inches in length.

The chief feature of the invention consists in the bias type rolling operation of the dough while it is advancing as a sheet after having been supplied with various ingredlents desired to be included in the finally baked product.

Other objects and features of the invention will be set forth more fully hereinafter.

Since a better understanding ofthe process can be had by describing a machine capable of functioning to perform that process, reference now will be had to such a machine and from the operation thereof as hereinafter set forth in conjunction with the description of the machine parts, the aforesaid method will be clearly understood.

The full nature of the invention will be understood from the accompanying drawings and the allowing description and claims.

" In the drawings,

i Fig. l is a top plan view of one embodiment of the invention.

Fig. 2 is a side elevational view of the same.

Fig. 3 is an end view of the invention.

Fig. 4 is a central sectional view and Fig. 5 is an elevational view of a circuit breaker arrangement controlling the roll cut-ofi. or roll section forming mechanism.

Fig. 6 is a side view and Fig. 7 is a central sectional view of one of the feeding hoppers for supplying sugar. chopped raisins, nuts, cinnamon, and the like.

Fig. 8 illustrates a portion of a screen suitable for supplying raisins, et cetera.

Fig. 9 is a similar view of a screen for supplying chopped nuts, et cetera.

Fig. 10 is a similar view of a screen for supplying sugar, cinnamonpand other comminuted materials.

Fig. 11 is a sectional view and Fig. 12 is a bottom plan of another form of hopper arrangement mechanism for the application of cream paste,

' jelly, or the like, to the dough.

Fig. l13 is an enlarged sectional view of the d'ive and rotatable support for the turnup roll, e c.

Fig. 14 is a view taken at right angles to Fis. 13 to illustrate the adjustable drive.

In Figs. 1 to 3 of the drawings, the numeral 20 indicates two side frames suitably connected together as at 2l at various locations. There is supported by this frame work a table or platform 22 and running in the same' is an endless beltoon- -veyor 23 that runs between two guides 24, the

strip of dough being confined by these guides and being moved by this belt conveyor.

The baker applies the dough at the receiving or left hand end of the platform 22 in alignment with the belt conveyor 23, having previously applied suiiicient iiour, or the like. to the platform ahead of the belt, so that the sheet of dough is suitably dusted on its lower face. The baker pushes this hand formed sheet of dough into the throat formed by the guides 24 projecting toward the left beyond the endless belt conveyor 23 and the surplus dough on either side of these guides is removed and subsequently worked up into another sheet. The baker in feeding this dough tries to form a fairly dat sheet of approximately proper thickness and width.

Before this dough is exhausted, the baker prepares another piece so that at the proper time he l can crimp the latter to the former before it passes completely through the sheeter.

The endless belt conveyor 23 then carries the dough forward and to the right in Figs. 1 and 2, whereupon, while on the conveyor, the sheet of dough encounters a flattening element 25. This Each crosshead 21 is provided with a screwthreaded attachment member 3| and these two members mount at their upper ends bevel gears 32 that mesh with similar bevel gears 33 carried by the shaft 34. This shaft 34 mounts a handwheel 35 on one end or the shaft may be extended a roller 38. It also passes over a sprocket pulley 53 carried by the shaft 46 of the roller 39. This driving chain passes over a tensioning sprocket pulley 54, mounted on a pivoted arm 55 and spring constrained as at 56. This, as stated. is a tensioning arrangement. In this way it will be observed that the rollers 38 and 39 are positively driven and in opposite directions by said chain and may be provided with a handwheel at both ends. By means of this adjustment the height of the beater and the height of the roller 36, which is the upper roller engaging the upper surface of the sheet of dough, may be adjusted.

Immediately beneath rollerv 36 is another roller 31 which has a fixed position and said roller 31 has its upper, longitudinal element substantially coplaner with that of the platform or table 22 and the upper run of the belt conveyor 23.

Immediately below the roller 31 is another roller 38 and forwardly thereof is a roller 39 mounted on shaft 48 carried by crossheads 4| slidably supported in the ways or guides 42. A screw element 43 is arranged to advance and return the roller 39. Each of these screws is provided with a bevel gear 44 and these bevel gears mesh with similar gears 45 carried by a shaft 46. A handwheel 41 is arranged to simultaneously move the crossheads 4| forwardly or rearwardly and thus move the roller 39 forwardly or rearwardly away from or toward the roller 38. The dough advanced by .the conveyor 23 passes beneath the beater 25 and thence between the rollers 36 and 31 and then4 drops vertically between the two rollers 38 and 39.

There may be supported above the roller 36 a suitable dusting arrangement, not shown, the detailed construction of which may be similar to that hereinafter described. Suflice, itis indicated by the numeral 48 in Fig. 2 and supplies flour to the top surface or face of the dough sheet so that the sheet will not adhere to the* upper roller 36,

it being remembered that the baker has sulciently dusted or floured the lower face of the sheet ahead of the conveyor 23. This dusting of both sides of the sheet of dough also prevents unite the sheets to insure continuous sheet` formation forcontinuous roll production by the apparatus.

In Fig. 2 the numeral 49 indicates a main power drive.` pulley 5| and then passes under a sprocket pulley 52, the latter being carried by the shaft 38a, of

A chain drive 50 passes over asprocket Coaxial with the center of the sprocket pulley 5| is an arm 51 and mounted on the end thereof is a gear 58. 'I'his gear 56 meshes with a gear 59 also coaxial with the sprocket pulley 5I and rotat able therewith. Thus the pinion 58 rotates at a relatively high speed. The pinion 58 has an eccentric pin 66 and a rod 6| ispivotally mounted thereon so that, in the rotation ofthe gear 58, the rod 6| is reciprocated generally in the up and down direction.

The upper end of this eccentric rod 6| is connected to a lever arm 62 which is rigid with the shaft 36 which supports the beater 25 by means of the extensions or arms 25a. It will be remembered the shaft 36 is mounted in arms 29 constituting extensions of the crosshead 21. the crossheads are elevated, arms 29 are elevated therewith and in a like amount, and accordingly, by means of the rod construction 6|, the arm 51 rotates clockwise to permit such elevating movement without interference, yet at the same time retaining the pinion 58 in mesh with the gear 59 for power application to the beater.

The superposed upper rollers 36 and 31 are sultably driven lfrom the main power source. as hereinafter set .forth. The shaft 31a of the lower roller mounts a sprocket pulley 63 which is driven by a chain drive 64, in turn driving a sprocket pulley 65 carried by the shaft 66 of the pulley or drum 61, which supports the forward end of the may be'provided with a tensioning device such as illustrated in Fig. 2 and indicated by the numerals 54 to 56, inclusive. .For clearness, this tensioning device is intentionally omitted from the present disclosure. It might be here stated the power connection from shaft 49 to the shaft 31, etc., is positioned upon the opposite side of the machine from the side illustrated in Fig. 2. The rollers 36 and 31 have substantially the same peripheral speed as the rollers 38 and 39.

Positioned beneath the aforesaid mechanism, is an endless conveyor arrangement 16, the rearward end thereof passing over drum 1| and the forward end thereof passing over drum 12, see Fig- 2. The lower run of this conveyor is directed upwardly as indicated at 10a and 18h, by means of Vthe idlers 13. Suitable tensioning means may be provided, such as hereinbefore described, and more specically'illustrated and indicated by numerals 54 to 56, inclusive. For clearness, same is omitted herefrom.

The power for driving the conveyor 161s ap'- plied to the drum'12 and such power application is encased in the housing portion 14. The peripheral speed of this conveyor 10 is substantially the same as thevperipheral Ispeed of the cooperating pairs of rollers beforey mentioned;

Above the upper run of the conveyor 16, there is provided a pair of brackets 15 which mount a When ., i 2,337,539 support 16 upon which are mounted a pluralityof oil spray heads 11 and adjacent thereto, or rather where the lower edge of the dough sheet, referring to Fig. 1, would be positioned, is a water spray head 18. These spray heads are suitably connected `by conduits to an oil reservoir 19see ,'Fig. 3-and a water reservoir 19a, respectively.

A motor 80, by means of a chain or belt 80a, drives a compressor 8| for supplying air toa tank 82. This m'otor has a power circuit which is controlled by alspressure` switch sov that the motor is automatically energized when the pressure falls to a predetermined amount and the motor is deenergized automaticallywhen the pressure in the tank rises to a predetermined amount.

The tank? is connected by a line 83 to a header- 84 which in turn discharges to each of the tanks 19 and 19a and maintatins pressure onV said tanks.

Consequently, air pressure forces the liquid in these tanks through the ,conduit 85 to the oil spray heads 11 and by means of conduit 86 tothe water spray head 18 from the tanks 19 and 19a, respectively. The purpose of the oil spray is to grease' all except one narrow edfge strip of the entire top surface of the'sheet fdoughwhich has been previously dusted for n n-fadherence to the roller, so that the various materials supplied to the top surface of the dough will adhere thereto, such materials, as stated previously, being sugar, cinnamon, chopped nuts. raisins. et cetera.

All connections to the several `tanks 19 and 19a with the air tank 82 are provided with valves and the several discharges from these tanks to the nozzles are provided `with valves. thel same being omitted for clearness in the instant illustration. but such valves are of regulating and cut-off character.

From the foregoingtherefore, it will be noted that as the sheet of dough is advanced, it is sprayed with Water on its lower edge. referring only to Fig. 1, for example a one inch width and is sprayed with oilv across the remainder of the entire upper face. The purpose of spraying this edge with water is to insure that when the dough is rolled up. the resulting moistened edge of the dough sheet, then' in roll formation, will adhere to the adjacent portion of the roll and be'sealed thereto, and by a mechanism to be hereinafter jdescribed.

To prevent oil and water discharge 'whenl the machine isnot operating, electromagnetic valves 69a and 69h may be included in the lines 85 and as the material application area. and at one side of. the machine there i's a'supportportionf 202)- whichherein is shown providediwith three `soclclets 81. 'I'he upper face of each provides a circular bearing 81u and a keyvvay'or slot 81h is provided. In the center lof thissock'ct an -upwardly directed driving. member. 'Ihis'driwA ing member 88- is a shaft extending upwardly from a worm wheel 89`that meshes with a worm pulley 54.

90 terminating in a pulley 9|.` Each of the sockets is similarly, provided. The material hopper structure, et cetera, generally is designated by the numeral 92 and it is superposed with relation to the conveyor 10 and the dough sheet thereon. It is of cantilever type in that the entire support of the hopper is through the socket arrangement described. Each of these material dispensers is, as is evident, detachably associated and can be interchangeably associated with any one of the sockets previously described;

Positioned v-beneath, see Fig. 2, the conveyor structure 10, and the several socket drives, is a shaft 93. This shaft `93 mounts a gear 94 meshing with the pinion 95 of a reduction unit 96 driven by a master motor 91 as at 98. The shaft 93 mounts as many divided pulley structures 99 as there are socket structures, before mentioned, and a belt |00 rides in the divided pulley structure and rides on the pulley 9| for driving the shaft .88, this being `the power shaft for the material vdistributor or hopper device.

'I'he divided pulley structure 99 has a fixed position pulley portion 99a and a slidable pulley portion 99h, the same confronting each other. The latter is constrained toward the pulley portion 99a by the spring |0|, which bears'against e. collar |02 with which is associated a bell crank |03 pivoted at |03a and adjusted as atA |04.

Associated with each belt |00 is an idler pulley |00a and same is mounted on pivotally supported arm |00b suitably .controlled by manually operable hand lever |00c, the position of which may be held by pawl and ratchet with hand lever release |0011, see Fig. 3. By these two adjustments, the speed of the shaft 88 may be adjusted as desired, notwithstanding the constant speed of shaft 93.

The power for rotating the drum 12 and hence advancing or moving the conveyor 10 is derived from the motor 91 through the structures 98, 96 and 95 and the gear 94 may mesh with another power element, not shown in Fig. 2, which in turn rotates the vertical shaft |05, see Fig. 13, at the right side of the machine (top Fig. l). Shaft |05 `mounts a bevel gear |06 meshingW-ith the bevel gear |01 carried by a shaft |08 within the housing 1li.` The other end of this shaft |08 carries a bevel gear |09 that meshes with a bevel gear ||0 carried on the shaft that supports the drum 12.

Meshing with the gear |08 is another gear ||2 carried by shaft ||8 which mounts at its rear end a bevel gear ||4 that meshes with another gear ||5 rigid with the sprocket pulley ||8 that is` associated with chain ||1 provided with a tensioning device not shown but previously described. This belt is associated with a pulley ||9 carried by the shaft 31a of the roller 31 `and is associated with a sprocket pulley |20 carried by the shaft 28 of the drum 39 in the manner chain 50 is associated with sprockets 5|,` 52. 53 and tensioning The vertical shaft |05 is the main power shaft of the machine.V Shaft 49, shown in Fig. 2. is the shaft which 'on the opposite end mounts the bevel gearv H5 and the sprocket housing structure l2 pulley IIB. The shaft ||3 is enclosed within the The shaft |05--see Fig.v13-is extended upwardly and into ahousing arrangement I 22-|24.

4 as shown in Fig. 1.

structure |21, the same being very elongated, relatively speaking, and normally biased relative to the direction of'travel relative to the belt 10,

This roller |21 rotates clockwise, looking at the lower or forward end of the roller, so that as the advancing dough sheet on its upper edge-see Fig. l-rst engages the roll |21, the dough is carried upwardly and then gradually turns back upon itself and starts the initial roll of the sheet so as to form a longitudinal roll of dough.

Shafts |05 and |05a have a detachable spline connection- |05b. Housing |24 carries shaft |26 and, by handle |24a, can be elevated when clamp |24b is loosened so that roll |21 can be swung about the axis of shafts |05|05a. The biased roll |21 thus can be locked in any biased position or lie parallel to belt as desired.

Immediately above roller |21 there is supported another roller |28 parallel to the roller |21 and counterweighted as at |20. This roller is carried by shaft |30 which rides in a somewhat vertical slot |30a. in housing |24.

The gear |3| meshes with the gear |25a carried by the shaft |3|a. Gears |3|b and |251) on shafts |3|a and |0517, respectively, mesh with each other. The gear |25a is slidable on countershaft |3|a and spring |3|c normally constrains gear |25a into mesh with gear |3|. The gear train relationship is such rolls |21 and |28 rotate in the same direction and roll |28 can elevate as the dough roll increases in size, yet be positively driven, which insures pressure contact between portions of the dough roll as it is being rolled up from the sheet. The counterweight |29a, for the roller |28 may be-suitably ladjusted on the supporty |29 and hence, this roller |28 controls the tightness of the `dough roll resulting from the dough sheet initially contacting the roller |21 and then rolling up upon itself. Spring |3|a has a force suiiicient for the purpose described.

As previously explained, a narrow strip at the lower edge, see Fig. 1, of the sheet of dough has been moistened by the`water supply nozzle 18 so that when that portion of the dough sheet engages the rolled up portion of the dough sheet, the pressure roller |28 causes the moistened portion of dough sheet to seal to' the main body portion of the dough roll. The completed dough roll then advances forwardly and angularlythat is, to the right in Fig. 1, and downwardly relative to the two rollers |21 and` |28, see Fig. 1, until it reaches the ends of these rollers. In other Words, the roll changes travel direction from the direction of travel of the sheet of dough.

Adjacent the ends of the rollers |21 and |28, there is provided a pair of spaced endless conveyors in the form of guides. Herein the numeral |32 indicates one of said inlet conveyors, the same being at right angles to the supporting plane of the conveyor 10 and terminating above Adjacent the belt |32 is another belt |31 which is carried by pulleys |38, the latter being supported by a support structure |39 that may be moved forwardly or rearwardly relative to the frame 20 and the discharge end of the belt 10 by means of the hand crank |40.

The purpose of this construction is to insure that the receiving end of this belt |31 is in proper position to receive theroll as it is discharged from the forward end of the turn-up roller. Also, this structure |39 may be so arranged that the conveyor |31 may be moved closer to the conveyor |32 or therefrom, as desired. This conveyor |31 is driven by a shaft |4| having gear |42a driven by a gear |42 on shaft |43 by means of a bevel gear |44 meshing with a bevel gear |45, on shaft lllthat is, the shaft which mounts the drum 12.

Whenever it is desired to positively drive the belt |32, the power drive may be derived from the primary shaft |05a in the housing |24 and carried along through the frame structure |34. However, this usually is not necessary just as long as one of the two confronting guide and roll sealing belts |32-|31 is positively driven. The dual belt drive under certain circumstances may be highly desirable and when it is desirable, the last mentioned drive to belt |32 may be incorporated, in addition to the rst mentioned drive, to belt |31, the latter being derived from the .left end ofthe shaft |I|, referring to Fig. 1.

the same and carried by the frame work |34 of the turnup and pressure rollers and by means of the arm |35 mounting rollers |36 at opposite ends. If desired, the connection between |34 and |35 may be of pivotal character as at |35 y and arranged for angular adjustment. There- The foregoing invention, excluding a specific description of one or more types of material dispensing apparatus associated with one or more -of the sockets 81 previously described, and lnprovided a power driven cutoff for forming uniform sections of the rolls. This mechanism is hingedly mounted on the frame 20 as at |45- that is, the discharge end of the machine. rhis includes a frame arrangement |41 which is provided with a tubular element |48 that receives the dough roll as it leaves the belt 10 on the drum 12.

Beneath tubular element |48 andA pivotally mounted in the frame work |41 is an open work wheel arrangement |49, the bars, |50 of which constitute cutting elements since they strike across the bottom of the tube |48 and hence cut through the dough roll to sever that part of the dough roll which has passed through the tube |48. This cutting wheel |49 is intermittently rotated and preferably is intermittently rotated by means of a ratchet |5| and a pawl |52.

The pawl |52 is suitably actuated by means |53 which is of rec-iprocatory type and which is connected to the core |54 of'a solenoid |55, current thereto being supplied by lines |56. All of this mechanism is carried by the auxiliary frame mpivoted at uit.y whenever desired-al1 of this' mechanism can be swungaway' from in from; of the dischargeMend ofthe belt 10 furthe purpose described. 'i

Referringto Fig: 2,it,will',be noted that shaft |43 is extendedVV and enters the housing |51, and

that" the current wires |56 alsoenter said hous- Vclusive.

assmso meshes with the gear |66 carried by the shaft |80. This shaft |60 mounts a contact plate |6| of insulation material. Mounted therein are suitable contacts |82. A slidable brush |68 rides the disc or plate IBI. A line |56 from said brush leads to the solenoid. A contact |66 engages plate |61 on disc |6| -and is in electrical connection with contacts |62. Brush |63 is arranged to successively contact arcuately spacedsegments |62, the same being connected to a source of power by line |66a and plug |56a, with the result electrical art, no further description or illustration of the same is believed necessary herein.`

Reference now will be had to Figs. 6 to 10, in-

4In this connection it is to be observed that the machine may be provided with at least three hoppers, eachwof which would be substantially identical to the others except for the difference in the screen plates as represented by Figs. 8, 9 and 10; the screen plate shown in Fig. 8 being suitable for the distribution of raisins, et cetera; that shown in Fig. 9 being suitable for the distribution of chopped nuts and material of that size, and that shown in Fig. 10 being suitable for the distribution of'powdered material, such as powdered sugar, sugar, cinnamon, et cetera.

It will be recalled there were provided three sockets 81 in the plate 20h. Referring to Figs. 6 and 7, there is illustrated a body portion |88 having a collar |68a and a tongue |69 below the co1- lar portion. The body portion |68 below the collar portion |68a seats in the socket 81 and the key or tongue |69 seats in the notch or slot 81b-see Fig. 1. The body portion |68 rotatably supports a shaft |10 which mounts on its upper end in chamber |1| a bevel gear |12, the latter meshing with the bevel gear |13 carried by shaft |14 that extends outwardly into the hopper formation indicated generally by the numeral |15. The detachable drive connection associated with the drive shaft 88 is indicated as at |10a in Fig. 6.

Hence, when the structure just described is associated with the socket 81 and the belt |00 connects the pulley 9| with the split pulley 99 in registration therewith and the belt tension is adjusted as described, the shaft |14 of the hopper mechanism will be rotated at the predetermined desired speed. But one of these structures is illustrated in Fig. 1 and is designated broadly by the numeral |15.

The hopper structure |15 at each end rotatably supports the shaft |14, the hopper having a semicircular bottom portion |15a with a longitudinal` throat |16 the full width of the hopper. Rotatably supported within the hopper and carried by said shaft |14 by means of the collars or discs |11 are the rods |18. These rods |18 constitute agitating elements. A screen |19 is interposed between the agitator and the hopper. bottom |15a and is extended upwardly and anchored as at |80 to the side wall of the hopper. Portions |8| are reenforcing ribs which may have hand holes |8|a therein.

The length of this oriilce may be regulated by the slidably supported cutoi slides |82 having the finger pieces |83. When these slides are pulled back, see Fig. 7, the throat |16 can discharge whatever is passed through the screen |16. clogging of the screen |19 is prevented by the agitator arrangement. The screen includes apertures |19a as shown in Fis. 8.

Figs. 9 and 10 merely show a slightly diuerent form of screen insofar as the size and number of apertures is concerned. The illustration in Figs. 8 to 10, inclusive, are to be considered'as illustrative in character. As previously set forth,

the speed of rotation of shaft |14 is determined` by the dual adjustment-see Figs. 1 and 3. As shown in Fig. 1, but one material discharging hopper of cantilever supported type is illustrated. The machine, howeverl is adapted to mount three Yof these material discharging hoppers-see Figs. 1 and 2. These immediately follow, insofan as dough sheet application is concerned, the oil and Water spray applications.

Reference now will be had to Figs. 11 and 12. It is to be understood the same general type of drive connection and supportv is provided as is illustrated in Figs. 6 and 7. However, in this instance, the central shaft |14 is not utilized but an offset drive arrangement is utilized to drive one of a pair of meshing corrugated rollers. The hopper in this instance is indicated by the numeral and the two corrugated rollers, indicated by the numeral |86, have the ridges |81 that mesh with eachother. The rotation thereof is as indicated by the arrows and the material carried around by the ridges and between the ridge and the hopper is discharged into the throat I 88 and from it as at |88a is applied to the top layer of the dough sheet therebeneath.

The hopper |85 is adapted to receive a. creamy paste such as lemon, vanilla, or chocolate. et cetera, cream for example, or a jelly paste. In this formof the invention, the apertured screens naturally are not employed. Fig. l2 illustrates the bottom of the hopper shown in Fig. 11 and illustrates how the width of the paste discharged can be regulated to correspond to the width of the dough sheet therebeneath.

Pivoted at each end of hopper |85 at |88 is a cut-o arm |89 having frictional contact with the bracket |90 carried by the underside of the hopper. Portion |9| of the arm is the hand adjusting portion. Two dotted positions are illustrated. When positioned as shown (see right side dotted), minimum width of cream is discharged if both'are positioned alike. A wider stream is discharged if both are positioned as shown (see dotted left hand side of Fig. 12). Full width discharge is effected when both control arms are positioned as shown by the full lines.

While the invention has been illustrated and described in great detail in the drawings and foregoing description, the same is to be considered as illustrative and not restrictive in character.

The several modifications described herein as well as others which will readily suggest 'themselves to persons skilled in this art, all are considered to be within the broad scope of the invention, reference being had to the appended claims.

The invention claimed is:

1. Dough roll forming apparatus including an elongated dough sheet supporting and advancing belt, an elongated, turn-up roll biased relative to the general direction of sheet travel and rotatable to elevate the edge o f the sheet from the belt for dough roll formation, progressive association of the dough sheet with the turn-up roll in association with sheet advance forming a dough roll from the sheet, the completed dough roll moving longitudinally of said turn-up roll in belt advance. and means normally clear of the sheet supporting surface of the belt and movably mounted for movement toward and away from the belt for facilitating dough roll formation and applying pressure to the forming dough roll to compact same.

in association with sheet advance forming a dough roll from the sheet, the completed dough roll moving longitudinally of said turn-up roll in belt advance, means normally clear of the sheet supporting surface of the belt and movabli1 mounted for movement toward and away from the belt for facilitating dough roll formation and applying pressure to the forming dough roll to compact same, and adjustable means for said dough roll form facilitating and pressure applying means for predetermined dough roll compaction. t

3. Dough roll forming apparatus including an elongated dough sheet supporting and advancing belt, an elongated, turn-up roll biased relative to the general direction of sheet travel and rotatable to elevate the edge of the sheet from association of the dough sheet with the turn-up roll in association with sheet advance forming a dough rollirom the sheet, the completed dough roll moving longitudinally of said turn-up roll in belt advance, means normally clear of the sheet supporting surface of the belt and movably mounted for movement toward and away from the belt for facilitating dough roll formation and applying pressure to the forming dough roll upon the biased turn-up roll to compact the dough roll, and spaced means between which the compact dough roll passes and adjacent the remote end of the turn-up roll and movable in the direction of belt travel for sealing the dough roll therebetween.

4. Dough roll forming apparatus including an elongated dough sheet supporting and advancing belt, an elongated, turn-up roll biased relative to the general direction of sheet travel and rotatable to elevate the edge of the sheet from the belt for dough roll formation, progressive association of the dough sheet with the turn-up the belt for dough roll formation, progressive roll in association with sheet advance forming a dough roll from the sheet, the completed dough roll moving longitudinally of said turn-up roll in belt advance, and endless, substantially parallel spaced means adjacent the remote end of the turn-up roll and each means having its dough roll engaging surface movable in the direction of belt travel for sealing the dough roll.

y .JOHN BUECHEK. 

